Combining directional microphone and single-channel noise reduction algorithms: a clinical evaluation in difficult listening conditions with cochlear implant users

This study tested a combination of algorithms designed to improve cochlear implant performance in noise. A noise reduction (NR) algorithm, based on signal to noise ratio estimation was evaluated in combination with several directional microphone algorithms available in the Cochlear CP810 sound proce...

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Published in	Ear and hearing Vol. 33; no. 4; p. e13
Main Authors	Hersbach, Adam A, Arora, Komal, Mauger, Stefan J, Dawson, Pam W
Format	Journal Article
Language	English
Published	United States 01.07.2012
Subjects	Adult Aged Aged, 80 and over Algorithms Audiometry, Speech Cochlear Implantation - methods Cochlear Implants Hearing Loss - surgery Humans Middle Aged Noise Signal Processing, Computer-Assisted Speech Perception Speech Reception Threshold Test
Online Access	Get more information
ISSN	1538-4667
DOI	10.1097/AUD.0b013e31824b9e21

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Abstract	This study tested a combination of algorithms designed to improve cochlear implant performance in noise. A noise reduction (NR) algorithm, based on signal to noise ratio estimation was evaluated in combination with several directional microphone algorithms available in the Cochlear CP810 sound processor. Fourteen adult unilateral cochlear implant users participated in the study. Evaluation was conducted using word recognition in quiet, sentence recognition in noise, and subjective feedback via questionnaire after a period of take-home use. Music appreciation was also evaluated in a controlled listening task. The sentence recognition task measured speech reception threshold for 50% morphemes correct. The interfering maskers were speech-weighted noise and competing talkers, which were spatially separated from the target speech. In addition, the locations of the noise maskers changed during the test in an effort to replicate relevant real-world listening conditions. SmartSound directionality settings Standard, Zoom, and Beam (used in the SmartSound programs Everyday, Noise, and Focus, respectively) were all evaluated with and without NR. Microphone directionality demonstrated a consistent benefit in sentence recognition in all noise conditions tested. The group average speech reception threshold benefit over the Standard setting was 3.7 dB for Zoom and 5.3 dB for Beam. Addition of the NR algorithm further improved sentence recognition by 1.3 dB when the noise maskers were speech-weighted noise. There was an overall group preference for the NR algorithm in noisy environments. Group mean word recognition in quiet, preference in quiet conditions, and music appreciation were all unaffected by the NR algorithm. Multimicrophone directionality was effective in improving speech understanding in spatially separated noisy conditions. The single-channel NR algorithm further enhanced speech intelligibility in speech-weighted noise for cochlear implant users while maintaining equivalent performance in quiet situations and when listening to music.
AbstractList	This study tested a combination of algorithms designed to improve cochlear implant performance in noise. A noise reduction (NR) algorithm, based on signal to noise ratio estimation was evaluated in combination with several directional microphone algorithms available in the Cochlear CP810 sound processor. Fourteen adult unilateral cochlear implant users participated in the study. Evaluation was conducted using word recognition in quiet, sentence recognition in noise, and subjective feedback via questionnaire after a period of take-home use. Music appreciation was also evaluated in a controlled listening task. The sentence recognition task measured speech reception threshold for 50% morphemes correct. The interfering maskers were speech-weighted noise and competing talkers, which were spatially separated from the target speech. In addition, the locations of the noise maskers changed during the test in an effort to replicate relevant real-world listening conditions. SmartSound directionality settings Standard, Zoom, and Beam (used in the SmartSound programs Everyday, Noise, and Focus, respectively) were all evaluated with and without NR. Microphone directionality demonstrated a consistent benefit in sentence recognition in all noise conditions tested. The group average speech reception threshold benefit over the Standard setting was 3.7 dB for Zoom and 5.3 dB for Beam. Addition of the NR algorithm further improved sentence recognition by 1.3 dB when the noise maskers were speech-weighted noise. There was an overall group preference for the NR algorithm in noisy environments. Group mean word recognition in quiet, preference in quiet conditions, and music appreciation were all unaffected by the NR algorithm. Multimicrophone directionality was effective in improving speech understanding in spatially separated noisy conditions. The single-channel NR algorithm further enhanced speech intelligibility in speech-weighted noise for cochlear implant users while maintaining equivalent performance in quiet situations and when listening to music.
Author	Arora, Komal Mauger, Stefan J Dawson, Pam W Hersbach, Adam A
Author_xml	– sequence: 1 givenname: Adam A surname: Hersbach fullname: Hersbach, Adam A email: ahersbach@cochlear.com organization: Cochlear Ltd., 174 Victoria Parade, East Melbourne, Australia 3002. ahersbach@cochlear.com – sequence: 2 givenname: Komal surname: Arora fullname: Arora, Komal – sequence: 3 givenname: Stefan J surname: Mauger fullname: Mauger, Stefan J – sequence: 4 givenname: Pam W surname: Dawson fullname: Dawson, Pam W
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SubjectTerms	Adult Aged Aged, 80 and over Algorithms Audiometry, Speech Cochlear Implantation - methods Cochlear Implants Hearing Loss - surgery Humans Middle Aged Noise Signal Processing, Computer-Assisted Speech Perception Speech Reception Threshold Test
Title	Combining directional microphone and single-channel noise reduction algorithms: a clinical evaluation in difficult listening conditions with cochlear implant users
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